Fixing ms.service and updating family files

Author: mattmcinnes

articles/virtual-machines/sizes/compute-optimized/f-family.md

@@ -24,19 +24,27 @@ ms.author: mattmcinnes
 ### Fsv2-series
 [!INCLUDE [fsv2-series-summary](./includes/fsv2-series-summary.md)]
 
-[View the full Fsv2-series page](../../fsv2-series.md).
+[View the full Fsv2-series page](./fsv2-series.md).
 
 [!INCLUDE [fsv2-series-specs](./includes/fsv2-series-specs.md)]
 
 
 ### Fasv6 and Falsv6-series
-[!INCLUDE [fasv6-falsv6-series-summary](./includes/fasv6-falsv6-series-summary.md)]
+#### [Fasv6-series](#tab/fasv6)
+[!INCLUDE [fasv6-series-summary](./includes/fasv6-series-summary.md)]
 
-[View the full Fasv6 and Falsv6-series page](../../fasv6-falsv6-series.md).
+[View the full Fasv6 and Falsv6-series page](./fasv6-series.md).
 
-[!INCLUDE [fasv6-falsv6-series-specs](./includes/fasv6-falsv6-series-specs.md)]
+[!INCLUDE [fasv6-series-specs](./includes/fasv6-series-specs.md)]
 
+#### [Falsv6-series](#tab/falsv6)
+[!INCLUDE [falsv6-series-summary](./includes/falsv6-series-summary.md)]
 
+[View the full Falsv6-series page](./falsv6-series.md).
+
+[!INCLUDE [falsv6-series-specs](./includes/falsv6-series-specs.md)]
+
+---
 ### Previous-generation F family series
 For older sizes, see [previous generation sizes](../previous-gen-sizes-list.md#compute-optimized-previous-gen-sizes).
 

articles/virtual-machines/sizes/compute-optimized/falsv6-series.md

@@ -2,7 +2,7 @@
 title: Falsv6 size series
 description: Information on and specifications of the Falsv6-series sizes
 author: mattmcinnes
-ms.service: virtual-machines
+ms.service: azure-virtual-machines
 ms.subservice: sizes
 ms.topic: conceptual
 ms.date: 07/30/2024

articles/virtual-machines/sizes/compute-optimized/famsv6-series.md

@@ -2,7 +2,7 @@
 title: Famsv6 size series
 description: Information on and specifications of the Famsv6-series sizes
 author: mattmcinnes
-ms.service: virtual-machines
+ms.service: azure-virtual-machines
 ms.subservice: sizes
 ms.topic: conceptual
 ms.date: 07/30/2024

articles/virtual-machines/sizes/compute-optimized/fasv6-series.md

@@ -2,7 +2,7 @@
 title: Fasv6 size series
 description: Information on and specifications of the Fasv6-series sizes
 author: mattmcinnes
-ms.service: virtual-machines
+ms.service: azure-virtual-machines
 ms.subservice: sizes
 ms.topic: conceptual
 ms.date: 07/30/2024

articles/virtual-machines/sizes/compute-optimized/fsv2-series.md

@@ -2,7 +2,7 @@
 title: Fsv2 size series
 description: Information on and specifications of the Fsv2-series sizes
 author: mattmcinnes
-ms.service: virtual-machines
+ms.service: azure-virtual-machines
 ms.subservice: sizes
 ms.topic: conceptual
 ms.date: 07/30/2024

articles/virtual-machines/sizes/compute-optimized/fx-family.md

@@ -24,7 +24,7 @@ ms.author: mattmcinnes
 ### FX-series
 [!INCLUDE [fx-series-summary](./includes/fx-series-summary.md)]
 
-[View the full FX-series page](../../fx-series.md).
+[View the full FX-series page](./fx-series.md).
 
 [!INCLUDE [fx-series-specs](./includes/fx-series-specs.md)]
 

articles/virtual-machines/sizes/compute-optimized/fx-series.md

@@ -2,7 +2,7 @@
 title: FX size series
 description: Information on and specifications of the FX-series sizes
 author: mattmcinnes
-ms.service: virtual-machines
+ms.service: azure-virtual-machines
 ms.subservice: sizes
 ms.topic: conceptual
 ms.date: 07/30/2024

articles/virtual-machines/sizes/compute-optimized/includes/falsv6-series-summary.md

@@ -10,6 +10,4 @@ ms.author: mattmcinnes
 ms.reviewer: mattmcinnes
 ms.custom: include file
 ---
-The Falsv6-series utilizes AMD's 4th Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7GHz with up to 320 MB L3 cache. The Falsv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs will suit workloads demanding the highest CPU performance.
-
-Falsv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three memory to core ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can leverage these VMs to optimize compute costs within their infrastructure. 
+The Falsv6-series utilizes AMD's fourth Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7 GHz with up to 320 MB L3 cache. The Falsv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs suit workloads demanding the highest CPU performance. Falsv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three 'memory to core' ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can use these VMs to optimize compute costs within their infrastructure.

articles/virtual-machines/sizes/compute-optimized/includes/famsv6-series-summary.md

@@ -10,6 +10,4 @@ ms.author: mattmcinnes
 ms.reviewer: mattmcinnes
 ms.custom: include file
 ---
-The Famsv6-series utilizes AMD's 4th Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7GHz with up to 320 MB L3 cache. The Famsv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs will suit workloads demanding the highest CPU performance.
-
-Famsv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three memory to core ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can leverage these VMs to optimize compute costs within their infrastructure. 
+The Famsv6-series utilizes AMD's fourth Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7 GHz with up to 320 MB L3 cache. The Famsv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs suit workloads demanding the highest CPU performance. Famsv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three 'memory to core' ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can use these VMs to optimize compute costs within their infrastructure.

articles/virtual-machines/sizes/compute-optimized/includes/fasv6-series-summary.md

@@ -10,6 +10,4 @@ ms.author: mattmcinnes
 ms.reviewer: mattmcinnes
 ms.custom: include file
 ---
-The Fasv6-series utilizes AMD's 4th Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7GHz with up to 320 MB L3 cache. The Fasv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs will suit workloads demanding the highest CPU performance.
-
-Fasv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three memory to core ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can leverage these VMs to optimize compute costs within their infrastructure. 
+The Fasv6-series utilizes AMD's fourth Generation EPYC™ 9004 processor that can achieve a boosted maximum frequency of 3.7 GHz with up to 320 MB L3 cache. The Fasv6 VM series comes without Simultaneous Multithreading (SMT), meaning a vCPU is now mapped to a full physical core, allowing software processes to run on dedicated and uncontested resources. These new full core VMs suit workloads demanding the highest CPU performance. Fasv6-series offers up to 64 full core vCPUs and 512 GiB of RAM in three 'memory to core' ratios. This series is optimized for scientific simulations, financial and risk analysis, gaming, rendering and other workloads able to take advantage of the exceptional performance. Customers running software licensed on per-vCPU basis can use these VMs to optimize compute costs within their infrastructure.